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Bassoon contributes to tau-seed propagation and neurotoxicity.

Pablo MartinezHenika PatelYanwen YouNur JuryAbigail PerkinsAudrey Lee-GosselinXavier TaylorYingjian YouGonzalo Viana Di PriscoXiaoqing HuangSayan DuttaAruna B WijeratneJavier Redding-OchoaSyed Salman ShahidJuan F CodocedoSehong MinGary E LandrethAmber L MosleyYu-Chien WuDavid L McKinzieJean-Christophe RochetJie ZhangBrady K AtwoodJuan TroncosoCristian A Lasagna-Reeves
Published in: Nature neuroscience (2022)
Tau aggregation is a defining histopathological feature of Alzheimer's disease and other tauopathies. However, the cellular mechanisms involved in tau propagation remain unclear. Here, we performed an unbiased quantitative proteomic study to identify proteins that specifically interact with this tau seed. We identified Bassoon (BSN), a presynaptic scaffolding protein, as an interactor of the tau seed isolated from a mouse model of tauopathy, and from Alzheimer's disease and progressive supranuclear palsy postmortem samples. We show that BSN exacerbates tau seeding and toxicity in both mouse and Drosophila models for tauopathy, and that BSN downregulation decreases tau spreading and overall disease pathology, rescuing synaptic and behavioral impairments and reducing brain atrophy. Our findings improve the understanding of how tau seeds can be stabilized by interactors such as BSN. Inhibiting tau-seed interactions is a potential new therapeutic approach for neurodegenerative tauopathies.
Keyphrases
  • cerebrospinal fluid
  • mouse model
  • machine learning
  • oxidative stress
  • high resolution
  • deep learning
  • blood brain barrier
  • resting state